public void AggregatesTicksIntoSecondBars()
{
var timeProvider = new ManualTimeProvider(TimeZones.NewYork);
var enumerator = new TradeBarBuilderEnumerator(Time.OneSecond, TimeZones.NewYork, timeProvider);
// noon new york time
var currentTime = new DateTime(2015, 10, 08, 12, 0, 0);
timeProvider.SetCurrentTime(currentTime);
// add some ticks
var ticks = new List<Tick>
{
new Tick(currentTime, "SPY", 199.55m, 199, 200) {Quantity = 10},
new Tick(currentTime, "SPY", 199.56m, 199.21m, 200.02m) {Quantity = 5},
new Tick(currentTime, "SPY", 199.53m, 198.77m, 199.75m) {Quantity = 20},
new Tick(currentTime, "SPY", 198.77m, 199.75m) {Quantity = 0},
new Tick(currentTime, "SPY", 199.73m, 198.77m, 199.75m) {Quantity = 20},
new Tick(currentTime, "SPY", 198.77m, 199.75m) {Quantity = 0},
};
foreach (var tick in ticks)
{
enumerator.ProcessData(tick);
}
// even though no data is here, it will still return true
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNull(enumerator.Current);
// advance a second
currentTime = currentTime.AddSeconds(1);
timeProvider.SetCurrentTime(currentTime);
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNotNull(enumerator.Current);
// in the spirit of not duplicating the above code 5 times (OHLCV, we'll assert these ere as well)
var bar = (TradeBar)enumerator.Current;
Assert.AreEqual(currentTime.AddSeconds(-1), bar.Time);
Assert.AreEqual(currentTime, bar.EndTime);
Assert.AreEqual("SPY", bar.Symbol.Value);
Assert.AreEqual(ticks.First().LastPrice, bar.Open);
Assert.AreEqual(ticks.Max(x => x.LastPrice), bar.High);
Assert.AreEqual(ticks.Min(x => x.LastPrice), bar.Low);
Assert.AreEqual(ticks.Last().LastPrice, bar.Close);
Assert.AreEqual(ticks.Sum(x => x.Quantity), bar.Volume);
}
public void AggregatesHourlyTicksIntoHourlyBars()
{
var timeProvider = new ManualTimeProvider(TimeZones.NewYork);
var enumerator = new TradeBarBuilderEnumerator(Time.OneHour, TimeZones.NewYork, timeProvider, false);
// noon new york time
var currentTime = new DateTime(2015, 10, 08, 12, 0, 0);
timeProvider.SetCurrentTime(currentTime);
var price = 0m;
for (var i = 0; i < 5; i++)
{
// advance one hour
currentTime = currentTime.AddHours(1);
timeProvider.SetCurrentTime(currentTime);
// we advanced time, a new bar should be generated
Assert.IsTrue(enumerator.MoveNext());
// the first loop no trade bar was generated yet, end time not reached
if (i > 0)
{
Assert.IsNotNull(enumerator.Current);
var bar = (TradeBar)enumerator.Current;
Assert.AreEqual(currentTime.AddHours(-1), bar.Time);
Assert.AreEqual(currentTime, bar.EndTime);
Assert.AreEqual(price, bar.Open);
Assert.AreEqual(price, bar.High);
Assert.AreEqual(price, bar.Low);
Assert.AreEqual(price, bar.Close);
}
// add a tick, will generate a new bar
price++;
enumerator.ProcessData(new Tick(currentTime, Symbols.SPY, price, price, price));
}
enumerator.Dispose();
}
/// <summary>
/// Creates an enumerator to read the specified request
/// </summary>
/// <param name="request">The subscription request to be read</param>
/// <param name="dataFileProvider">Provider used to get data when it is not present on disk</param>
/// <returns>An enumerator reading the subscription request</returns>
public IEnumerator <BaseData> CreateEnumerator(SubscriptionRequest request, IDataFileProvider dataFileProvider)
{
if (_isLiveMode)
{
var localTime = request.StartTimeUtc.ConvertFromUtc(request.Configuration.ExchangeTimeZone);
// loading the list of futures contracts and converting them into zip entries
var symbols = _symbolUniverse.LookupSymbols(request.Security.Symbol.Underlying.Value, request.Security.Type);
var zipEntries = symbols.Select(x => new ZipEntryName {
Time = localTime, Symbol = x
} as BaseData).ToList();
var underlyingEnumerator = new TradeBarBuilderEnumerator(request.Configuration.Increment, request.Security.Exchange.TimeZone, _timeProvider);
underlyingEnumerator.ProcessData(new Tick {
Value = 0
});
// configuring the enumerator
var subscriptionConfiguration = GetSubscriptionConfigurations(request).First();
var subscriptionRequest = new SubscriptionRequest(request, configuration: subscriptionConfiguration);
var configuredEnumerator = _enumeratorConfigurator(subscriptionRequest, underlyingEnumerator);
return(new DataQueueFuturesChainUniverseDataCollectionEnumerator(request.Security.Symbol, configuredEnumerator, zipEntries));
}
else
{
var factory = new BaseDataSubscriptionEnumeratorFactory();
var enumerators = GetSubscriptionConfigurations(request)
.Select(c => new SubscriptionRequest(request, configuration: c))
.Select(sr => _enumeratorConfigurator(request, factory.CreateEnumerator(sr, dataFileProvider)));
var sync = new SynchronizingEnumerator(enumerators);
return(new FuturesChainUniverseDataCollectionAggregatorEnumerator(sync, request.Security.Symbol));
}
}
/// <summary>
/// Creates a new subscription for the specified security
/// </summary>
/// <param name="request">The subscription request</param>
/// <returns>A new subscription instance of the specified security</returns>
protected Subscription CreateSubscription(SubscriptionRequest request)
{
Subscription subscription = null;
try
{
var localEndTime = request.EndTimeUtc.ConvertFromUtc(request.Security.Exchange.TimeZone);
var timeZoneOffsetProvider = new TimeZoneOffsetProvider(request.Security.Exchange.TimeZone, request.StartTimeUtc, request.EndTimeUtc);
IEnumerator <BaseData> enumerator;
if (request.Configuration.IsCustomData)
{
if (!Quandl.IsAuthCodeSet)
{
// we're not using the SubscriptionDataReader, so be sure to set the auth token here
Quandl.SetAuthCode(Config.Get("quandl-auth-token"));
}
// each time we exhaust we'll new up this enumerator stack
var refresher = new RefreshEnumerator <BaseData>(() =>
{
var dateInDataTimeZone = DateTime.UtcNow.ConvertFromUtc(request.Configuration.DataTimeZone).Date;
var enumeratorFactory = new BaseDataSubscriptionEnumeratorFactory(r => new[] { dateInDataTimeZone });
var factoryReadEnumerator = enumeratorFactory.CreateEnumerator(request, _dataFileProvider);
var maximumDataAge = TimeSpan.FromTicks(Math.Max(request.Configuration.Increment.Ticks, TimeSpan.FromSeconds(5).Ticks));
var fastForward = new FastForwardEnumerator(factoryReadEnumerator, _timeProvider, request.Security.Exchange.TimeZone, maximumDataAge);
return(new FrontierAwareEnumerator(fastForward, _frontierTimeProvider, timeZoneOffsetProvider));
});
// rate limit the refreshing of the stack to the requested interval
// At Tick resolution, it will refresh at full speed
// At Second and Minute resolution, it will refresh every second and minute respectively
// At Hour and Daily resolutions, it will refresh every 30 minutes
var minimumTimeBetweenCalls = Math.Min(request.Configuration.Increment.Ticks, TimeSpan.FromMinutes(30).Ticks);
var rateLimit = new RateLimitEnumerator(refresher, _timeProvider, TimeSpan.FromTicks(minimumTimeBetweenCalls));
_customExchange.AddEnumerator(request.Configuration.Symbol, rateLimit);
var enqueable = new EnqueueableEnumerator <BaseData>();
_customExchange.SetDataHandler(request.Configuration.Symbol, data =>
{
enqueable.Enqueue(data);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = enqueable;
}
else if (request.Configuration.Resolution != Resolution.Tick)
{
// this enumerator allows the exchange to pump ticks into the 'back' of the enumerator,
// and the time sync loop can pull aggregated trade bars off the front
switch (request.Configuration.TickType)
{
case TickType.Quote:
var quoteBarAggregator = new QuoteBarBuilderEnumerator(request.Configuration.Increment, request.Security.Exchange.TimeZone, _timeProvider);
_exchange.AddDataHandler(request.Configuration.Symbol, data =>
{
var tick = data as Tick;
if (tick.TickType == TickType.Quote)
{
quoteBarAggregator.ProcessData(tick);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
}
});
enumerator = quoteBarAggregator;
break;
case TickType.Trade:
default:
var tradeBarAggregator = new TradeBarBuilderEnumerator(request.Configuration.Increment, request.Security.Exchange.TimeZone, _timeProvider);
_exchange.AddDataHandler(request.Configuration.Symbol, data =>
{
var tick = data as Tick;
if (tick.TickType == TickType.Trade)
{
tradeBarAggregator.ProcessData(tick);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
}
});
enumerator = tradeBarAggregator;
break;
case TickType.OpenInterest:
var oiAggregator = new OpenInterestEnumerator(request.Configuration.Increment, request.Security.Exchange.TimeZone, _timeProvider);
_exchange.AddDataHandler(request.Configuration.Symbol, data =>
{
var tick = data as Tick;
if (tick.TickType == TickType.OpenInterest)
{
oiAggregator.ProcessData(tick);
}
});
enumerator = oiAggregator;
break;
}
}
else
{
// tick subscriptions can pass right through
var tickEnumerator = new EnqueueableEnumerator <BaseData>();
_exchange.SetDataHandler(request.Configuration.Symbol, data =>
{
tickEnumerator.Enqueue(data);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = tickEnumerator;
}
if (request.Configuration.FillDataForward)
{
var subscriptionConfigs = _subscriptions.Select(x => x.Configuration).Concat(new[] { request.Configuration });
UpdateFillForwardResolution(subscriptionConfigs);
enumerator = new LiveFillForwardEnumerator(_frontierTimeProvider, enumerator, request.Security.Exchange, _fillForwardResolution, request.Configuration.ExtendedMarketHours, localEndTime, request.Configuration.Increment);
}
// define market hours and user filters to incoming data
if (request.Configuration.IsFilteredSubscription)
{
enumerator = new SubscriptionFilterEnumerator(enumerator, request.Security, localEndTime);
}
// finally, make our subscriptions aware of the frontier of the data feed, prevents future data from spewing into the feed
enumerator = new FrontierAwareEnumerator(enumerator, _frontierTimeProvider, timeZoneOffsetProvider);
subscription = new Subscription(request.Universe, request.Security, request.Configuration, enumerator, timeZoneOffsetProvider, request.StartTimeUtc, request.EndTimeUtc, false);
}
catch (Exception err)
{
Log.Error(err);
}
return(subscription);
}
/// <summary>
/// Creates a new subscription for the specified security
/// </summary>
/// <param name="request">The subscription request</param>
/// <returns>A new subscription instance of the specified security</returns>
protected Subscription CreateSubscription(SubscriptionRequest request)
{
Subscription subscription = null;
try
{
var localEndTime = request.EndTimeUtc.ConvertFromUtc(request.Security.Exchange.TimeZone);
var timeZoneOffsetProvider = new TimeZoneOffsetProvider(request.Security.Exchange.TimeZone, request.StartTimeUtc, request.EndTimeUtc);
IEnumerator<BaseData> enumerator;
if (request.Configuration.IsCustomData)
{
if (!Quandl.IsAuthCodeSet)
{
// we're not using the SubscriptionDataReader, so be sure to set the auth token here
Quandl.SetAuthCode(Config.Get("quandl-auth-token"));
}
// each time we exhaust we'll new up this enumerator stack
var refresher = new RefreshEnumerator<BaseData>(() =>
{
var dateInDataTimeZone = DateTime.UtcNow.ConvertFromUtc(request.Configuration.DataTimeZone).Date;
var enumeratorFactory = new BaseDataCollectionSubscriptionEnumeratorFactory(r => new [] {dateInDataTimeZone});
var factoryReadEnumerator = enumeratorFactory.CreateEnumerator(request);
var maximumDataAge = TimeSpan.FromTicks(Math.Max(request.Configuration.Increment.Ticks, TimeSpan.FromSeconds(5).Ticks));
return new FastForwardEnumerator(factoryReadEnumerator, _timeProvider, request.Security.Exchange.TimeZone, maximumDataAge);
});
// rate limit the refreshing of the stack to the requested interval
var minimumTimeBetweenCalls = Math.Min(request.Configuration.Increment.Ticks, TimeSpan.FromMinutes(30).Ticks);
var rateLimit = new RateLimitEnumerator(refresher, _timeProvider, TimeSpan.FromTicks(minimumTimeBetweenCalls));
var frontierAware = new FrontierAwareEnumerator(rateLimit, _timeProvider, timeZoneOffsetProvider);
_customExchange.AddEnumerator(request.Configuration.Symbol, frontierAware);
var enqueable = new EnqueueableEnumerator<BaseData>();
_customExchange.SetDataHandler(request.Configuration.Symbol, data =>
{
enqueable.Enqueue(data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = enqueable;
}
else if (request.Configuration.Resolution != Resolution.Tick)
{
// this enumerator allows the exchange to pump ticks into the 'back' of the enumerator,
// and the time sync loop can pull aggregated trade bars off the front
var aggregator = new TradeBarBuilderEnumerator(request.Configuration.Increment, request.Security.Exchange.TimeZone, _timeProvider);
_exchange.SetDataHandler(request.Configuration.Symbol, data =>
{
aggregator.ProcessData((Tick) data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = aggregator;
}
else
{
// tick subscriptions can pass right through
var tickEnumerator = new EnqueueableEnumerator<BaseData>();
_exchange.SetDataHandler(request.Configuration.Symbol, data =>
{
tickEnumerator.Enqueue(data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = tickEnumerator;
}
if (request.Configuration.FillDataForward)
{
enumerator = new LiveFillForwardEnumerator(_frontierTimeProvider, enumerator, request.Security.Exchange, _fillForwardResolution, request.Configuration.ExtendedMarketHours, localEndTime, request.Configuration.Increment);
}
// define market hours and user filters to incoming data
if (request.Configuration.IsFilteredSubscription)
{
enumerator = new SubscriptionFilterEnumerator(enumerator, request.Security, localEndTime);
}
// finally, make our subscriptions aware of the frontier of the data feed, prevents future data from spewing into the feed
enumerator = new FrontierAwareEnumerator(enumerator, _frontierTimeProvider, timeZoneOffsetProvider);
subscription = new Subscription(request.Universe, request.Security, request.Configuration, enumerator, timeZoneOffsetProvider, request.StartTimeUtc, request.EndTimeUtc, false);
}
catch (Exception err)
{
Log.Error(err);
}
return subscription;
}
/// <summary>
/// Creates a new subscription for the specified security
/// </summary>
/// <param name="universe"></param>
/// <param name="security">The security to create a subscription for</param>
/// <param name="utcStartTime">The start time of the subscription in UTC</param>
/// <param name="utcEndTime">The end time of the subscription in UTC</param>
/// <returns>A new subscription instance of the specified security</returns>
protected Subscription CreateSubscription(Universe universe, Security security, DateTime utcStartTime, DateTime utcEndTime)
{
Subscription subscription = null;
try
{
var config = security.SubscriptionDataConfig;
var localStartTime = utcStartTime.ConvertFromUtc(config.TimeZone);
var localEndTime = utcEndTime.ConvertFromUtc(config.TimeZone);
var timeZoneOffsetProvider = new TimeZoneOffsetProvider(security.SubscriptionDataConfig.TimeZone, utcStartTime, utcEndTime);
IEnumerator <BaseData> enumerator;
if (config.IsCustomData)
{
// each time we exhaust we'll new up this enumerator stack
var refresher = new RefreshEnumerator <BaseData>(() =>
{
var sourceProvider = (BaseData)Activator.CreateInstance(config.Type);
var currentLocalDate = DateTime.UtcNow.ConvertFromUtc(config.TimeZone).Date;
var factory = new BaseDataSubscriptionFactory(config, currentLocalDate, true);
var source = sourceProvider.GetSource(config, currentLocalDate, true);
var factoryReadEnumerator = factory.Read(source).GetEnumerator();
var maximumDataAge = TimeSpan.FromTicks(Math.Max(config.Increment.Ticks, TimeSpan.FromSeconds(5).Ticks));
var fastForward = new FastForwardEnumerator(factoryReadEnumerator, _timeProvider, config.TimeZone, maximumDataAge);
return(new FrontierAwareEnumerator(fastForward, _timeProvider, timeZoneOffsetProvider));
});
// rate limit the refreshing of the stack to the requested interval
var minimumTimeBetweenCalls = Math.Min(config.Increment.Ticks, TimeSpan.FromMinutes(30).Ticks);
var rateLimit = new RateLimitEnumerator(refresher, _timeProvider, TimeSpan.FromTicks(minimumTimeBetweenCalls));
_customExchange.AddEnumerator(rateLimit);
var enqueable = new EnqueableEnumerator <BaseData>();
_customExchange.SetHandler(config.Symbol, data =>
{
enqueable.Enqueue(data);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = enqueable;
}
else if (config.Resolution != Resolution.Tick)
{
// this enumerator allows the exchange to pump ticks into the 'back' of the enumerator,
// and the time sync loop can pull aggregated trade bars off the front
var aggregator = new TradeBarBuilderEnumerator(config.Increment, config.TimeZone, _timeProvider);
_exchange.SetHandler(config.Symbol, data =>
{
aggregator.ProcessData((Tick)data);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = aggregator;
}
else
{
// tick subscriptions can pass right through
var tickEnumerator = new EnqueableEnumerator <BaseData>();
_exchange.SetHandler(config.Symbol, data =>
{
tickEnumerator.Enqueue(data);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = tickEnumerator;
}
if (config.FillDataForward)
{
// TODO : Properly resolve fill forward resolution like in FileSystemDataFeed (make considerations for universe-only)
enumerator = new LiveFillForwardEnumerator(_frontierTimeProvider, enumerator, security.Exchange, _fillForwardResolution, config.ExtendedMarketHours, localEndTime, config.Increment);
}
// define market hours and user filters to incoming data
enumerator = new SubscriptionFilterEnumerator(enumerator, security, localEndTime);
// finally, make our subscriptions aware of the frontier of the data feed, this will help
enumerator = new FrontierAwareEnumerator(enumerator, _frontierTimeProvider, timeZoneOffsetProvider);
subscription = new Subscription(universe, security, enumerator, timeZoneOffsetProvider, utcStartTime, utcEndTime, false);
}
catch (Exception err)
{
Log.Error(err);
}
return(subscription);
}
/// <summary>
/// Creates a new subscription for the specified security
/// </summary>
/// <param name="request">The subscription request</param>
/// <returns>A new subscription instance of the specified security</returns>
protected Subscription CreateDataSubscription(SubscriptionRequest request)
{
Subscription subscription = null;
try
{
var localEndTime = request.EndTimeUtc.ConvertFromUtc(request.Security.Exchange.TimeZone);
var timeZoneOffsetProvider = new TimeZoneOffsetProvider(request.Security.Exchange.TimeZone, request.StartTimeUtc, request.EndTimeUtc);
IEnumerator <BaseData> enumerator;
if (!_channelProvider.ShouldStreamSubscription(request.Configuration))
{
if (!Quandl.IsAuthCodeSet)
{
// we're not using the SubscriptionDataReader, so be sure to set the auth token here
Quandl.SetAuthCode(Config.Get("quandl-auth-token"));
}
if (!Tiingo.IsAuthCodeSet)
{
// we're not using the SubscriptionDataReader, so be sure to set the auth token here
Tiingo.SetAuthCode(Config.Get("tiingo-auth-token"));
}
if (!USEnergyAPI.IsAuthCodeSet)
{
// we're not using the SubscriptionDataReader, so be sure to set the auth token here
USEnergyAPI.SetAuthCode(Config.Get("us-energy-information-auth-token"));
}
if (!FredApi.IsAuthCodeSet)
{
// we're not using the SubscriptionDataReader, so be sure to set the auth token here
FredApi.SetAuthCode(Config.Get("fred-auth-token"));
}
var factory = new LiveCustomDataSubscriptionEnumeratorFactory(_timeProvider);
var enumeratorStack = factory.CreateEnumerator(request, _dataProvider);
_customExchange.AddEnumerator(request.Configuration.Symbol, enumeratorStack);
var enqueable = new EnqueueableEnumerator <BaseData>();
_customExchange.SetDataHandler(request.Configuration.Symbol, data =>
{
enqueable.Enqueue(data);
subscription.OnNewDataAvailable();
UpdateSubscriptionRealTimePrice(
subscription,
timeZoneOffsetProvider,
request.Security.Exchange.Hours,
data);
});
enumerator = enqueable;
}
else
{
// this enumerator allows the exchange to pump ticks into the 'back' of the enumerator,
// and the time sync loop can pull aggregated trade bars off the front
switch (request.Configuration.Type.Name)
{
case nameof(QuoteBar):
var quoteBarAggregator = new QuoteBarBuilderEnumerator(
request.Configuration.Increment,
request.Security.Exchange.TimeZone,
_timeProvider,
true,
(sender, args) => subscription.OnNewDataAvailable());
_exchange.AddDataHandler(request.Configuration.Symbol, data =>
{
var tick = data as Tick;
if (tick?.TickType == TickType.Quote && !tick.Suspicious)
{
quoteBarAggregator.ProcessData(tick);
UpdateSubscriptionRealTimePrice(
subscription,
timeZoneOffsetProvider,
request.Security.Exchange.Hours,
data);
}
});
enumerator = quoteBarAggregator;
break;
case nameof(TradeBar):
var tradeBarAggregator = new TradeBarBuilderEnumerator(
request.Configuration.Increment,
request.Security.Exchange.TimeZone,
_timeProvider,
true,
(sender, args) => subscription.OnNewDataAvailable());
var auxDataEnumerator = new LiveAuxiliaryDataEnumerator(
request.Security.Exchange.TimeZone,
_timeProvider);
_exchange.AddDataHandler(
request.Configuration.Symbol,
data =>
{
if (data.DataType == MarketDataType.Auxiliary)
{
auxDataEnumerator.Enqueue(data);
subscription.OnNewDataAvailable();
}
else
{
var tick = data as Tick;
if (tick?.TickType == TickType.Trade && !tick.Suspicious)
{
tradeBarAggregator.ProcessData(tick);
UpdateSubscriptionRealTimePrice(
subscription,
timeZoneOffsetProvider,
request.Security.Exchange.Hours,
data);
}
}
});
enumerator = request.Configuration.SecurityType == SecurityType.Equity
? (IEnumerator <BaseData>) new LiveEquityDataSynchronizingEnumerator(_frontierTimeProvider, request.Security.Exchange.TimeZone, auxDataEnumerator, tradeBarAggregator)
: tradeBarAggregator;
break;
case nameof(OpenInterest):
var oiAggregator = new OpenInterestEnumerator(
request.Configuration.Increment,
request.Security.Exchange.TimeZone,
_timeProvider,
true,
(sender, args) => subscription.OnNewDataAvailable());
_exchange.AddDataHandler(request.Configuration.Symbol, data =>
{
var tick = data as Tick;
if (tick?.TickType == TickType.OpenInterest && !tick.Suspicious)
{
oiAggregator.ProcessData(tick);
}
});
enumerator = oiAggregator;
break;
case nameof(Tick):
default:
// tick or streaming custom data subscriptions can pass right through
var tickEnumerator = new EnqueueableEnumerator <BaseData>();
_exchange.AddDataHandler(
request.Configuration.Symbol,
data =>
{
var tick = data as Tick;
if (tick != null)
{
if (tick.TickType == request.Configuration.TickType)
{
tickEnumerator.Enqueue(data);
subscription.OnNewDataAvailable();
if (tick.TickType != TickType.OpenInterest)
{
UpdateSubscriptionRealTimePrice(
subscription,
timeZoneOffsetProvider,
request.Security.Exchange.Hours,
data);
}
}
}
else
{
tickEnumerator.Enqueue(data);
subscription.OnNewDataAvailable();
}
});
enumerator = tickEnumerator;
break;
}
}
if (request.Configuration.FillDataForward)
{
var fillForwardResolution = _subscriptions.UpdateAndGetFillForwardResolution(request.Configuration);
enumerator = new LiveFillForwardEnumerator(_frontierTimeProvider, enumerator, request.Security.Exchange, fillForwardResolution, request.Configuration.ExtendedMarketHours, localEndTime, request.Configuration.Increment, request.Configuration.DataTimeZone, request.StartTimeLocal);
}
// define market hours and user filters to incoming data
if (request.Configuration.IsFilteredSubscription)
{
enumerator = new SubscriptionFilterEnumerator(enumerator, request.Security, localEndTime);
}
// finally, make our subscriptions aware of the frontier of the data feed, prevents future data from spewing into the feed
enumerator = new FrontierAwareEnumerator(enumerator, _frontierTimeProvider, timeZoneOffsetProvider);
var subscriptionDataEnumerator = new SubscriptionDataEnumerator(request.Configuration, request.Security.Exchange.Hours, timeZoneOffsetProvider, enumerator);
subscription = new Subscription(request, subscriptionDataEnumerator, timeZoneOffsetProvider);
}
catch (Exception err)
{
Log.Error(err);
}
return(subscription);
}
public void RefreshesOptionChainUniverseOnDateChange()
{
var startTime = new DateTime(2018, 10, 19, 10, 0, 0);
var timeProvider = new ManualTimeProvider(startTime);
var canonicalSymbol = Symbol.Create("SPY", SecurityType.Option, Market.USA, "?SPY");
var quoteCurrency = new Cash(Currencies.USD, 0, 1);
var exchangeHours = MarketHoursDatabase.FromDataFolder().GetExchangeHours(Market.USA, canonicalSymbol, SecurityType.Option);
var config = new SubscriptionDataConfig(
typeof(ZipEntryName),
canonicalSymbol,
Resolution.Minute,
TimeZones.Utc,
TimeZones.NewYork,
true,
false,
false,
false,
TickType.Quote,
false,
DataNormalizationMode.Raw
);
var option = new Option(
canonicalSymbol,
exchangeHours,
quoteCurrency,
new OptionSymbolProperties(SymbolProperties.GetDefault(Currencies.USD)),
ErrorCurrencyConverter.Instance
);
var fillForwardResolution = Ref.CreateReadOnly(() => Resolution.Minute.ToTimeSpan());
var symbolUniverse = new TestDataQueueUniverseProvider(timeProvider);
TradeBarBuilderEnumerator underlyingEnumerator = null;
Func <SubscriptionRequest, IEnumerator <BaseData>, IEnumerator <BaseData> > underlyingEnumeratorFunc =
(req, input) =>
{
underlyingEnumerator = (TradeBarBuilderEnumerator)input;
return(new LiveFillForwardEnumerator(
timeProvider,
input,
option.Exchange,
fillForwardResolution,
false,
Time.EndOfTime,
Resolution.Minute.ToTimeSpan(),
TimeZones.Utc));
};
var factory = new OptionChainUniverseSubscriptionEnumeratorFactory(underlyingEnumeratorFunc, symbolUniverse, timeProvider);
var universeSettings = new UniverseSettings(Resolution.Minute, 0, true, false, TimeSpan.Zero);
var universe = new OptionChainUniverse(option, universeSettings, true);
var request = new SubscriptionRequest(true, universe, option, config, startTime, Time.EndOfTime);
var enumerator = (DataQueueOptionChainUniverseDataCollectionEnumerator)factory.CreateEnumerator(request, new DefaultDataProvider());
// 2018-10-19 10:00 AM UTC
underlyingEnumerator.ProcessData(new Tick {
Symbol = Symbols.SPY, Value = 280m
});
Assert.IsTrue(enumerator.MoveNext());
// no underlying data available yet
Assert.IsNull(enumerator.Current);
Assert.AreEqual(0, symbolUniverse.TotalLookupCalls);
// 2018-10-19 10:01 AM UTC
timeProvider.Advance(Time.OneMinute);
underlyingEnumerator.ProcessData(new Tick {
Symbol = Symbols.SPY, Value = 280m
});
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNotNull(enumerator.Current);
Assert.AreEqual(1, symbolUniverse.TotalLookupCalls);
var data = enumerator.Current;
Assert.IsNotNull(data);
Assert.AreEqual(1, data.Data.Count);
Assert.IsNotNull(data.Underlying);
// 2018-10-19 10:02 AM UTC
timeProvider.Advance(Time.OneMinute);
underlyingEnumerator.ProcessData(new Tick {
Symbol = Symbols.SPY, Value = 280m
});
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNotNull(enumerator.Current);
Assert.AreEqual(1, symbolUniverse.TotalLookupCalls);
data = enumerator.Current;
Assert.IsNotNull(data);
Assert.AreEqual(1, data.Data.Count);
Assert.IsNotNull(data.Underlying);
// 2018-10-19 10:03 AM UTC
timeProvider.Advance(Time.OneMinute);
underlyingEnumerator.ProcessData(new Tick {
Symbol = Symbols.SPY, Value = 280m
});
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNotNull(enumerator.Current);
Assert.AreEqual(1, symbolUniverse.TotalLookupCalls);
data = enumerator.Current;
Assert.IsNotNull(data);
Assert.AreEqual(1, data.Data.Count);
Assert.IsNotNull(data.Underlying);
// 2018-10-20 10:03 AM UTC
timeProvider.Advance(Time.OneDay);
underlyingEnumerator.ProcessData(new Tick {
Symbol = Symbols.SPY, Value = 280m
});
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNotNull(enumerator.Current);
Assert.AreEqual(2, symbolUniverse.TotalLookupCalls);
data = enumerator.Current;
Assert.IsNotNull(data);
Assert.AreEqual(2, data.Data.Count);
Assert.IsNotNull(data.Underlying);
// 2018-10-20 10:04 AM UTC
timeProvider.Advance(Time.OneMinute);
underlyingEnumerator.ProcessData(new Tick {
Symbol = Symbols.SPY, Value = 280m
});
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNotNull(enumerator.Current);
Assert.AreEqual(2, symbolUniverse.TotalLookupCalls);
data = enumerator.Current;
Assert.IsNotNull(data);
Assert.AreEqual(2, data.Data.Count);
Assert.IsNotNull(data.Underlying);
}
/// <summary>
/// Creates a new subscription for the specified security
/// </summary>
/// <param name="request">The subscription request</param>
/// <returns>A new subscription instance of the specified security</returns>
protected Subscription CreateSubscription(SubscriptionRequest request)
{
Subscription subscription = null;
try
{
var localEndTime = request.EndTimeUtc.ConvertFromUtc(request.Security.Exchange.TimeZone);
var timeZoneOffsetProvider = new TimeZoneOffsetProvider(request.Security.Exchange.TimeZone, request.StartTimeUtc, request.EndTimeUtc);
IEnumerator <BaseData> enumerator;
if (request.Configuration.IsCustomData)
{
if (!Quandl.IsAuthCodeSet)
{
// we're not using the SubscriptionDataReader, so be sure to set the auth token here
Quandl.SetAuthCode(Config.Get("quandl-auth-token"));
}
var factory = new LiveCustomDataSubscriptionEnumeratorFactory(_timeProvider);
var enumeratorStack = factory.CreateEnumerator(request, _dataProvider);
_customExchange.AddEnumerator(request.Configuration.Symbol, enumeratorStack);
var enqueable = new EnqueueableEnumerator <BaseData>();
_customExchange.SetDataHandler(request.Configuration.Symbol, data =>
{
enqueable.Enqueue(data);
if (SubscriptionShouldUpdateRealTimePrice(subscription, timeZoneOffsetProvider))
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = enqueable;
}
else if (request.Configuration.Resolution != Resolution.Tick)
{
// this enumerator allows the exchange to pump ticks into the 'back' of the enumerator,
// and the time sync loop can pull aggregated trade bars off the front
switch (request.Configuration.TickType)
{
case TickType.Quote:
var quoteBarAggregator = new QuoteBarBuilderEnumerator(request.Configuration.Increment, request.Security.Exchange.TimeZone, _timeProvider);
_exchange.AddDataHandler(request.Configuration.Symbol, data =>
{
var tick = data as Tick;
if (tick.TickType == TickType.Quote)
{
quoteBarAggregator.ProcessData(tick);
if (SubscriptionShouldUpdateRealTimePrice(subscription, timeZoneOffsetProvider))
{
subscription.RealtimePrice = data.Value;
}
}
});
enumerator = quoteBarAggregator;
break;
case TickType.Trade:
default:
var tradeBarAggregator = new TradeBarBuilderEnumerator(request.Configuration.Increment, request.Security.Exchange.TimeZone, _timeProvider);
_exchange.AddDataHandler(request.Configuration.Symbol, data =>
{
var tick = data as Tick;
if (tick.TickType == TickType.Trade)
{
tradeBarAggregator.ProcessData(tick);
if (SubscriptionShouldUpdateRealTimePrice(subscription, timeZoneOffsetProvider))
{
subscription.RealtimePrice = data.Value;
}
}
});
enumerator = tradeBarAggregator;
break;
case TickType.OpenInterest:
var oiAggregator = new OpenInterestEnumerator(request.Configuration.Increment, request.Security.Exchange.TimeZone, _timeProvider);
_exchange.AddDataHandler(request.Configuration.Symbol, data =>
{
var tick = data as Tick;
if (tick.TickType == TickType.OpenInterest)
{
oiAggregator.ProcessData(tick);
}
});
enumerator = oiAggregator;
break;
}
}
else
{
// tick subscriptions can pass right through
var tickEnumerator = new EnqueueableEnumerator <BaseData>();
_exchange.SetDataHandler(request.Configuration.Symbol, data =>
{
tickEnumerator.Enqueue(data);
if (SubscriptionShouldUpdateRealTimePrice(subscription, timeZoneOffsetProvider))
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = tickEnumerator;
}
if (request.Configuration.FillDataForward)
{
var subscriptionConfigs = _subscriptions.Select(x => x.Configuration).Concat(new[] { request.Configuration });
UpdateFillForwardResolution(subscriptionConfigs);
enumerator = new LiveFillForwardEnumerator(_frontierTimeProvider, enumerator, request.Security.Exchange, _fillForwardResolution, request.Configuration.ExtendedMarketHours, localEndTime, request.Configuration.Increment, request.Configuration.DataTimeZone);
}
// define market hours and user filters to incoming data
if (request.Configuration.IsFilteredSubscription)
{
enumerator = new SubscriptionFilterEnumerator(enumerator, request.Security, localEndTime);
}
// finally, make our subscriptions aware of the frontier of the data feed, prevents future data from spewing into the feed
enumerator = new FrontierAwareEnumerator(enumerator, _frontierTimeProvider, timeZoneOffsetProvider);
var subscriptionDataEnumerator = SubscriptionData.Enumerator(request.Configuration, request.Security, timeZoneOffsetProvider, enumerator);
subscription = new Subscription(request.Universe, request.Security, request.Configuration, subscriptionDataEnumerator, timeZoneOffsetProvider, request.StartTimeUtc, request.EndTimeUtc, false);
}
catch (Exception err)
{
Log.Error(err);
}
return(subscription);
}
/// <summary>
/// Creates a new subscription for the specified security
/// </summary>
/// <param name="security">The security to create a subscription for</param>
/// <param name="utcStartTime">The start time of the subscription in UTC</param>
/// <param name="utcEndTime">The end time of the subscription in UTC</param>
/// <param name="isUserDefinedSubscription">True for subscriptions manually added by user via AddSecurity</param>
/// <returns>A new subscription instance of the specified security</returns>
protected Subscription CreateSubscription(Security security, DateTime utcStartTime, DateTime utcEndTime, bool isUserDefinedSubscription)
{
Subscription subscription = null;
try
{
var config = security.SubscriptionDataConfig;
var localStartTime = utcStartTime.ConvertFromUtc(config.TimeZone);
var localEndTime = utcEndTime.ConvertFromUtc(config.TimeZone);
IEnumerator<BaseData> enumerator;
if (config.IsCustomData)
{
// custom data uses backtest readers
var tradeableDates = Time.EachTradeableDay(security, localStartTime, localEndTime);
var reader = new SubscriptionDataReader(config, localStartTime, localEndTime, _resultHandler, tradeableDates, true, false);
// apply fast forwarding, this is especially important for RemoteFile types that
// can send in large chunks of old, irrelevant data
var fastForward = new FastForwardEnumerator(reader, _timeProvider, config.TimeZone, config.Increment);
// apply rate limits (1x per increment, max 30 minutes between calls)
// TODO : Pull limits from config file?
var minimumTimeBetweenCalls = Math.Min(config.Increment.Ticks, TimeSpan.FromMinutes(30).Ticks);
var rateLimit = new RateLimitEnumerator(fastForward, _timeProvider, TimeSpan.FromTicks(minimumTimeBetweenCalls));
// add the enumerator to the exchange
_customExchange.AddEnumerator(rateLimit);
// this enumerator just allows the exchange to directly dump data into the 'back' of the enumerator
var enqueable = new EnqueableEnumerator<BaseData>();
_customExchange.SetHandler(config.Symbol, data =>
{
enqueable.Enqueue(data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = enqueable;
}
else if (config.Resolution != Resolution.Tick)
{
// this enumerator allows the exchange to pump ticks into the 'back' of the enumerator,
// and the time sync loop can pull aggregated trade bars off the front
var aggregator = new TradeBarBuilderEnumerator(config.Increment, config.TimeZone, _timeProvider);
_exchange.SetHandler(config.Symbol, data =>
{
aggregator.ProcessData((Tick) data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = aggregator;
}
else
{
// tick subscriptions can pass right through
var tickEnumerator = new EnqueableEnumerator<BaseData>();
_exchange.SetHandler(config.Symbol, data =>
{
tickEnumerator.Enqueue(data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = tickEnumerator;
}
if (config.FillDataForward)
{
// TODO : Properly resolve fill forward resolution like in FileSystemDataFeed (make considerations for universe-only)
enumerator = new LiveFillForwardEnumerator(_frontierTimeProvider, enumerator, security.Exchange, _fillForwardResolution.ToTimeSpan(), config.ExtendedMarketHours, localEndTime, config.Increment);
}
// define market hours and user filters to incoming data
enumerator = new SubscriptionFilterEnumerator(enumerator, security, localEndTime);
// finally, make our subscriptions aware of the frontier of the data feed, this will help
var timeZoneOffsetProvider = new TimeZoneOffsetProvider(security.SubscriptionDataConfig.TimeZone, utcStartTime, utcEndTime);
enumerator = new FrontierAwareEnumerator(enumerator, _frontierTimeProvider, timeZoneOffsetProvider);
subscription = new Subscription(security, enumerator, timeZoneOffsetProvider, utcStartTime, utcEndTime, isUserDefinedSubscription);
}
catch (Exception err)
{
Log.Error(err);
}
return subscription;
}
/// <summary>
/// Creates a new subscription for the specified security
/// </summary>
/// <param name="universe"></param>
/// <param name="security">The security to create a subscription for</param>
/// <param name="config">The subscription config to be added</param>
/// <param name="utcStartTime">The start time of the subscription in UTC</param>
/// <param name="utcEndTime">The end time of the subscription in UTC</param>
/// <returns>A new subscription instance of the specified security</returns>
protected Subscription CreateSubscription(Universe universe, Security security, SubscriptionDataConfig config, DateTime utcStartTime, DateTime utcEndTime)
{
Subscription subscription = null;
try
{
var localEndTime = utcEndTime.ConvertFromUtc(security.Exchange.TimeZone);
var timeZoneOffsetProvider = new TimeZoneOffsetProvider(security.Exchange.TimeZone, utcStartTime, utcEndTime);
IEnumerator <BaseData> enumerator;
if (config.IsCustomData)
{
if (!Quandl.IsAuthCodeSet)
{
// we're not using the SubscriptionDataReader, so be sure to set the auth token here
Quandl.SetAuthCode(Config.Get("quandl-auth-token"));
}
// each time we exhaust we'll new up this enumerator stack
var refresher = new RefreshEnumerator <BaseData>(() =>
{
var sourceProvider = (BaseData)Activator.CreateInstance(config.Type);
var dateInDataTimeZone = DateTime.UtcNow.ConvertFromUtc(config.DataTimeZone).Date;
var source = sourceProvider.GetSource(config, dateInDataTimeZone, true);
var factory = SubscriptionDataSourceReader.ForSource(source, config, dateInDataTimeZone, false);
var factoryReadEnumerator = factory.Read(source).GetEnumerator();
var maximumDataAge = TimeSpan.FromTicks(Math.Max(config.Increment.Ticks, TimeSpan.FromSeconds(5).Ticks));
return(new FastForwardEnumerator(factoryReadEnumerator, _timeProvider, security.Exchange.TimeZone, maximumDataAge));
});
// rate limit the refreshing of the stack to the requested interval
var minimumTimeBetweenCalls = Math.Min(config.Increment.Ticks, TimeSpan.FromMinutes(30).Ticks);
var rateLimit = new RateLimitEnumerator(refresher, _timeProvider, TimeSpan.FromTicks(minimumTimeBetweenCalls));
var frontierAware = new FrontierAwareEnumerator(rateLimit, _timeProvider, timeZoneOffsetProvider);
_customExchange.AddEnumerator(config.Symbol, frontierAware);
var enqueable = new EnqueueableEnumerator <BaseData>();
_customExchange.SetDataHandler(config.Symbol, data =>
{
enqueable.Enqueue(data);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = enqueable;
}
else if (config.Resolution != Resolution.Tick)
{
// this enumerator allows the exchange to pump ticks into the 'back' of the enumerator,
// and the time sync loop can pull aggregated trade bars off the front
var aggregator = new TradeBarBuilderEnumerator(config.Increment, security.Exchange.TimeZone, _timeProvider);
_exchange.SetDataHandler(config.Symbol, data =>
{
aggregator.ProcessData((Tick)data);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = aggregator;
}
else
{
// tick subscriptions can pass right through
var tickEnumerator = new EnqueueableEnumerator <BaseData>();
_exchange.SetDataHandler(config.Symbol, data =>
{
tickEnumerator.Enqueue(data);
if (subscription != null)
{
subscription.RealtimePrice = data.Value;
}
});
enumerator = tickEnumerator;
}
if (config.FillDataForward)
{
enumerator = new LiveFillForwardEnumerator(_frontierTimeProvider, enumerator, security.Exchange, _fillForwardResolution, config.ExtendedMarketHours, localEndTime, config.Increment);
}
// define market hours and user filters to incoming data
if (config.IsFilteredSubscription)
{
enumerator = new SubscriptionFilterEnumerator(enumerator, security, localEndTime);
}
// finally, make our subscriptions aware of the frontier of the data feed, prevents future data from spewing into the feed
enumerator = new FrontierAwareEnumerator(enumerator, _frontierTimeProvider, timeZoneOffsetProvider);
subscription = new Subscription(universe, security, config, enumerator, timeZoneOffsetProvider, utcStartTime, utcEndTime, false);
}
catch (Exception err)
{
Log.Error(err);
}
return(subscription);
}
/// <summary>
/// Creates a new subscription for the specified security
/// </summary>
/// <param name="universe"></param>
/// <param name="security">The security to create a subscription for</param>
/// <param name="utcStartTime">The start time of the subscription in UTC</param>
/// <param name="utcEndTime">The end time of the subscription in UTC</param>
/// <returns>A new subscription instance of the specified security</returns>
protected Subscription CreateSubscription(Universe universe, Security security, DateTime utcStartTime, DateTime utcEndTime)
{
Subscription subscription = null;
try
{
var config = security.SubscriptionDataConfig;
var localEndTime = utcEndTime.ConvertFromUtc(security.Exchange.TimeZone);
var timeZoneOffsetProvider = new TimeZoneOffsetProvider(security.Exchange.TimeZone, utcStartTime, utcEndTime);
IEnumerator<BaseData> enumerator;
if (config.IsCustomData)
{
// each time we exhaust we'll new up this enumerator stack
var refresher = new RefreshEnumerator<BaseData>(() =>
{
var sourceProvider = (BaseData)Activator.CreateInstance(config.Type);
var currentLocalDate = DateTime.UtcNow.ConvertFromUtc(security.Exchange.TimeZone).Date;
var factory = new BaseDataSubscriptionFactory(config, currentLocalDate, true);
var source = sourceProvider.GetSource(config, currentLocalDate, true);
var factoryReadEnumerator = factory.Read(source).GetEnumerator();
var maximumDataAge = TimeSpan.FromTicks(Math.Max(config.Increment.Ticks, TimeSpan.FromSeconds(5).Ticks));
var fastForward = new FastForwardEnumerator(factoryReadEnumerator, _timeProvider, security.Exchange.TimeZone, maximumDataAge);
return new FrontierAwareEnumerator(fastForward, _timeProvider, timeZoneOffsetProvider);
});
// rate limit the refreshing of the stack to the requested interval
var minimumTimeBetweenCalls = Math.Min(config.Increment.Ticks, TimeSpan.FromMinutes(30).Ticks);
var rateLimit = new RateLimitEnumerator(refresher, _timeProvider, TimeSpan.FromTicks(minimumTimeBetweenCalls));
_customExchange.AddEnumerator(rateLimit);
var enqueable = new EnqueableEnumerator<BaseData>();
_customExchange.SetHandler(config.Symbol, data =>
{
enqueable.Enqueue(data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = enqueable;
}
else if (config.Resolution != Resolution.Tick)
{
// this enumerator allows the exchange to pump ticks into the 'back' of the enumerator,
// and the time sync loop can pull aggregated trade bars off the front
var aggregator = new TradeBarBuilderEnumerator(config.Increment, security.Exchange.TimeZone, _timeProvider);
_exchange.SetHandler(config.Symbol, data =>
{
aggregator.ProcessData((Tick) data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = aggregator;
}
else
{
// tick subscriptions can pass right through
var tickEnumerator = new EnqueableEnumerator<BaseData>();
_exchange.SetHandler(config.Symbol, data =>
{
tickEnumerator.Enqueue(data);
if (subscription != null) subscription.RealtimePrice = data.Value;
});
enumerator = tickEnumerator;
}
if (config.FillDataForward)
{
// TODO : Properly resolve fill forward resolution like in FileSystemDataFeed (make considerations for universe-only)
enumerator = new LiveFillForwardEnumerator(_frontierTimeProvider, enumerator, security.Exchange, _fillForwardResolution, config.ExtendedMarketHours, localEndTime, config.Increment);
}
// define market hours and user filters to incoming data
enumerator = new SubscriptionFilterEnumerator(enumerator, security, localEndTime);
// finally, make our subscriptions aware of the frontier of the data feed, this will help
enumerator = new FrontierAwareEnumerator(enumerator, _frontierTimeProvider, timeZoneOffsetProvider);
subscription = new Subscription(universe, security, enumerator, timeZoneOffsetProvider, utcStartTime, utcEndTime, false);
}
catch (Exception err)
{
Log.Error(err);
}
return subscription;
}
public void AggregatesTicksIntoSecondBars()
{
var timeProvider = new ManualTimeProvider(TimeZones.NewYork);
var enumerator = new TradeBarBuilderEnumerator(Time.OneSecond, TimeZones.NewYork, timeProvider);
// noon new york time
var currentTime = new DateTime(2015, 10, 08, 12, 0, 0);
timeProvider.SetCurrentTime(currentTime);
// add some ticks
var ticks = new List <Tick>
{
new Tick(currentTime, Symbols.SPY, 199.55m, 199, 200)
{
Quantity = 10
},
new Tick(currentTime, Symbols.SPY, 199.56m, 199.21m, 200.02m)
{
Quantity = 5
},
new Tick(currentTime, Symbols.SPY, 199.53m, 198.77m, 199.75m)
{
Quantity = 20
},
new Tick(currentTime, Symbols.SPY, 198.77m, 199.75m)
{
Quantity = 0
},
new Tick(currentTime, Symbols.SPY, 199.73m, 198.77m, 199.75m)
{
Quantity = 20
},
new Tick(currentTime, Symbols.SPY, 198.77m, 199.75m)
{
Quantity = 0
},
};
foreach (var tick in ticks)
{
enumerator.ProcessData(tick);
}
// even though no data is here, it will still return true
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNull(enumerator.Current);
// advance a second
currentTime = currentTime.AddSeconds(1);
timeProvider.SetCurrentTime(currentTime);
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNotNull(enumerator.Current);
// in the spirit of not duplicating the above code 5 times (OHLCV, we'll assert these ere as well)
var bar = (TradeBar)enumerator.Current;
Assert.AreEqual(currentTime.AddSeconds(-1), bar.Time);
Assert.AreEqual(currentTime, bar.EndTime);
Assert.AreEqual(Symbols.SPY, bar.Symbol);
Assert.AreEqual(ticks.First().LastPrice, bar.Open);
Assert.AreEqual(ticks.Max(x => x.LastPrice), bar.High);
Assert.AreEqual(ticks.Min(x => x.LastPrice), bar.Low);
Assert.AreEqual(ticks.Last().LastPrice, bar.Close);
Assert.AreEqual(ticks.Sum(x => x.Quantity), bar.Volume);
}
public void CreatesNewBarWhenBarSizeElapses()
{
var timeProvider = new ManualTimeProvider();
var enumerator = new TradeBarBuilderEnumerator(Time.OneSecond, TimeZones.Utc, timeProvider);
// noon new york time
var startTime = new DateTime(2015, 10, 08, 12, 0, 0);
timeProvider.SetCurrentTime(startTime);
enumerator.ProcessData(new Tick{Time = startTime});
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNull(enumerator.Current);
timeProvider.AdvanceSeconds(0.99);
enumerator.ProcessData(new Tick {Time = timeProvider.GetUtcNow()});
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNull(enumerator.Current);
timeProvider.SetCurrentTime(startTime.AddSeconds(1));
// the second just ticked over, so it shouldn't include this tick when we move next
enumerator.ProcessData(new Tick {Time = timeProvider.GetUtcNow(), Quantity = 1});
Assert.IsTrue(enumerator.MoveNext());
Assert.IsNotNull(enumerator.Current);
Assert.AreEqual(0, ((TradeBar)enumerator.Current).Volume);
}